Re: [RFC][PATCHSET] VM_FAULT_RETRY fixes

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On Wed, Feb 01, 2023 at 02:48:22PM -0500, Peter Xu wrote:

> I do also see a common pattern of the possibility to have a generic fault
> handler like generic_page_fault().
> 
> It probably should start with taking the mmap_sem until providing some
> retval that is much easier to digest further by the arch-dependent code, so
> it can directly do something rather than parsing the bitmask in a
> duplicated way (hence the new retval should hopefully not a bitmask anymore
> but a "what to do").
> 
> Maybe it can be something like:
> 
> /**
>  * enum page_fault_retval - Higher level fault retval, generalized from
>  * vm_fault_reason above that is only used by hardware page fault handlers.
>  * It generalizes the bitmask-versioned retval into something that the arch
>  * dependent code should react upon.
>  *
>  * @PF_RET_COMPLETED:		The page fault is completed successfully
>  * @PF_RET_BAD_AREA:		The page fault address falls in a bad area
>  *				(e.g., vma not found, expand_stack() fails..)

FWIW, there's a fun discrepancy - VM_FAULT_SIGSEGV may yield SEGV_MAPERR
or SEGV_ACCERR; depends upon the architecture.  Not that there'd been
many places that return VM_FAULT_SIGSEGV these days...  Good thing, too,
since otherwise e.g. csky would oops...

>  * @PF_RET_ACCESS_ERR:		The page fault has access errors
>  *				(e.g., write fault on !VM_WRITE vmas)
>  * @PF_RET_KERN_FIXUP:		The page fault requires kernel fixups
>  *				(e.g., during copy_to_user() but fault failed?)
>  * @PF_RET_HWPOISON:		The page fault encountered poisoned pages
>  * @PF_RET_SIGNAL:		The page fault encountered poisoned pages

??

>  * ...
>  */
> enum page_fault_retval {
> 	PF_RET_DONE = 0,
> 	PF_RET_BAD_AREA,
> 	PF_RET_ACCESS_ERR,
> 	PF_RET_KERN_FIXUP,
>         PF_RET_HWPOISON,
>         PF_RET_SIGNAL,
> 	...
> };
> 
> As a start we may still want to return some more information (perhaps still
> the vm_fault_t alongside?  Or another union that will provide different
> information based on different PF_RET_*).  One major thing is I see how we
> handle VM_FAULT_HWPOISON and also the fact that we encode something more
> into the bitmask on page sizes (VM_FAULT_HINDEX_MASK).
> 
> So the generic helper could, hopefully, hide the complexity of:
> 
>   - Taking and releasing of mmap lock
>   - find_vma(), and also relevant checks on access or stack handling

Umm...  arm is a bit special here:
                if (addr < FIRST_USER_ADDRESS)
			return VM_FAULT_BADMAP;
with no counterparts elsewhere.

>   - handle_mm_fault() itself (of course...)
>   - detect signals
>   - handle page fault retries (so, in the new layer of retval there should
>     have nothing telling it to retry; it should always be the ultimate result)

agreed.

    - unlock mmap; don't leave that to caller.

>   - parse different errors into "what the arch code should do", and
>     generalize the common ones, e.g.
>     - OOM, do pagefault_out_of_memory() for user-mode
>     - VM_FAULT_SIGSEGV, which should be able to merge into PF_RET_BAD_AREA?
>     - ...

AFAICS, all errors in kernel mode => no_context.

> It'll simplify things if we can unify some small details like whether the
> -EFAULT above should contain a sigbus.
> 
> A trivial detail I found when I was looking at this is, x86_64 passes in
> different signals to kernelmode_fixup_or_oops() - in do_user_addr_fault()
> there're three call sites and each of them pass over a differerent signal.
> IIUC that will only make a difference if there's a nested page fault during
> the vsyscall emulation (but I may be wrong too because I'm new to this
> code), and I have no idea when it'll happen and whether that needs to be
> strictly followed.

>From my (very incomplete so far) dig through that pile:
	Q: do we still have the cases when handle_mm_fault() does
not return any of VM_FAULT_COMPLETED | VM_FAULT_RETRY | VM_FAULT_ERROR?
That gets treated as unlock + VM_FAULT_COMPLETED, but do we still need
that?
	Q: can VM_FAULT_RETRY be mixed with anything in VM_FAULT_ERROR?
What locking, if that happens?
	* details of storing the fault details (for ptrace, mostly)
vary a lot; no chance to unify, AFAICS.
	* requirements for vma flags also differ; e.g. read fault on
alpha is explicitly OK with absence of VM_READ if VM_WRITE is there.
Probably should go by way of arm and pass the mask that must
have non-empty intersection with vma->vm_flags?  Because *that*
is very likely to be a part of ABI - mmap(2) callers that rely
upon the flags being OK for given architecture are quite possible.
	* mmap lock is also quite variable in how it's taken;
x86 and arm have fun dance with trylock/search for exception handler/etc.
Other architectures do not; OTOH, there's a prefetch stuck in itanic
variant, with comment about mmap_sem being performance-critical...
	* logics for stack expansion includes this twist:
        if (!(vma->vm_flags & VM_GROWSDOWN))
                goto map_err;
        if (user_mode(regs)) {
                /* Accessing the stack below usp is always a bug.  The
                   "+ 256" is there due to some instructions doing
                   pre-decrement on the stack and that doesn't show up
                   until later.  */
                if (address + 256 < rdusp())
                        goto map_err;
        }
        if (expand_stack(vma, address))
                goto map_err;
That's m68k; ISTR similar considerations elsewhere, but I could be
wrong.



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